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    x9cmme

    Abstract: oscillator tunnel diode Position Estimation transistor substitution chart USE OF TRANSISTOR AN1158 AN43 RR-520 X9241A X9312
    Text: Designing with Intersil Digitally Controlled Potentiometers XDCPs Application Note Introduction The use of Intersil's nonvolatile digital potentiometers (XDCPs) can simplify and/or solve many mixed signal design problems. However, in some applications, a deeper


    Original     		PDF AN1158 x9cmme oscillator tunnel diode Position Estimation transistor substitution chart USE OF TRANSISTOR AN43 RR-520 X9241A X9312

    x9cmme

    Abstract: X9CMME datasheet X9C103 AN43 AN53 RR-520 X9241A X9312 X9313 X9314
    Text: Application Note AN53 Designing with Xicor Digitally Controlled Potentiometers XDCPs Introduction The use of Xicor's nonvolatile digital potentiometers (XDCPs) can simplify and/or solve many mixed signal design problems. However, in some applications, a


    Original     		PDF X9241AW X9241AU X9241AM X94xx x9cmme X9CMME datasheet X9C103 AN43 AN53 RR-520 X9241A X9312 X9313 X9314

    X9C103

    Abstract: AN1157 X9241 X9312 X9313 x9cmme
    Text: Power Supply and DC to DC Converter Control using Intersil Digitally Controlled Potentiontiometers XDCPs Application Note May 10, 2005 AN1157.0 Author: Applications Staff Introduction Implementing Designs with XDCPs The output voltage of power supplies and DC to DC


    Original     		PDF AN1157 X9241 X9C103 X9241 X9312 X9313 x9cmme

    X9503

    Abstract: X9503 equivalent X9103 Application note x9314 x9cmme AN53 xicor Position Estimation RR-520 XICOR AN43 USE OF TRANSISTOR
    Text: Application Note AN53 Designing with Xicor E2POTs by Gray Creager, December 1994 Introduction The use of Xicor's nonvolatile digital potentiometers 2 E POTs can simplify and/or solve many mixed signal design problems, however in some 2 applications, a deeper understanding of E POT


    Original     		PDF AN53-7 X9503 X9503 equivalent X9103 Application note x9314 x9cmme AN53 xicor Position Estimation RR-520 XICOR AN43 USE OF TRANSISTOR

    evaluation circuits for e2pots

    Abstract: x9cmme Schematic of 100K digital potentiometer x9c102 XK9241 Diode 1N41 Schematic of 100K digital potentiometer W 503 Potentiometers AN88 X9221 X9241
    Text: Application Note AN88 Evaluation Circuits for E2POTs by Gray Creager, June 1996 Introduction The use of Xicor’s nonvolatile digital potentiometers 2 E POTs in mixed signal applications can offer a number of unique system advantages over the use of mechanical potentiometers. During prototyping, a


    Original     		PDF X9241 X9221/X9241 XK9241 4HC132 74HC132 AN88-3 evaluation circuits for e2pots x9cmme Schematic of 100K digital potentiometer x9c102 Diode 1N41 Schematic of 100K digital potentiometer W 503 Potentiometers AN88 X9221 X9241

    x9cmme

    Abstract: ic 1157 "Resistor array" AN1157 X9241 X9312 X9313 X9C103 10k pot variable resistor 8 resistor array 10k
    Text: Power Supply and DC to DC Converter Control using Intersil Digitally Controlled Potentiometers XDCPs Application Note October 1, 2008 AN1157.1 Author: Applications Staff Introduction Implementing Designs with XDCPs The output voltage of power supplies and DC to DC


    Original     		PDF AN1157 X9241 x9cmme ic 1157 "Resistor array" X9241 X9312 X9313 X9C103 10k pot variable resistor 8 resistor array 10k

    74HC13

    Abstract: x9cmme Schematic of 100K digital potentiometer x9c102 X9134 X9CMME datasheet POTENTIOMETER 100K LOG W 503 Potentiometers X9312 X9C102 Application note x9314 IC 7407
    Text: Evaluation Circuits for XDCP Application Note April 26, 2005 AN88.0 Author: Applications Staff Introduction The use of Intersil’s nonvolatile digital potentiometers XDCPs in mixed signal applications can offer a number of unique system advantages over the use of mechanical


    Original     		PDF 1N4148 74HC13 X9134 1000p 74HC13 x9cmme Schematic of 100K digital potentiometer x9c102 X9134 X9CMME datasheet POTENTIOMETER 100K LOG W 503 Potentiometers X9312 X9C102 Application note x9314 IC 7407

    10k pot variable resistor

    Abstract: "Resistor array" X9CMME X9312 X9313 X9C103 AN52 X9241 pin configuration 10K variable resistor 8 resistor array 10k
    Text: Application Note AN52 2 Power Supply and DC to DC Converter Control using E POTs By Richard Downing, October 1994 Introduction The output voltage of power supplies and DC to DC converters is regulated by dividing down the output, comparing it with a stable reference, amplifying the


    Original     		PDF X9241 AN52-4 10k pot variable resistor "Resistor array" X9CMME X9312 X9313 X9C103 AN52 X9241 pin configuration 10K variable resistor 8 resistor array 10k

    x9cmme

    Abstract: AN52 X9241A X9312 X9313 X9C103 8 resistor array 10k ic x9cmme data
    Text: Application Note AN52 Power Supply and DC to DC Converter Control using XICOR Digitally Controlled Potentiontiometers XDCPs by Applications Staff Introduction The output voltage of power supplies and DC to DC converters is regulated by dividing down the output,


    Original     		PDF X9241A x9cmme AN52 X9312 X9313 X9C103 8 resistor array 10k ic x9cmme data

    x9cmme

    Abstract: X9312 ML marking 4011 CMOS CI 4011 resistor array 10k dip 25CC
    Text: JbHF Advance Information Terminal Voltage OV to +15V X9312 E2POT Digitally Controlled Potentiometer FEATURES D E S C R IP T IO N • Compatible with X9MME and X9CMME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 pA Max • 99 Resistive Elements


    OCR Scan     		PDF X9312 X9312W X9312U X9312T X9312 x9cmme ML marking 4011 CMOS CI 4011 resistor array 10k dip 25CC

    X9311

    Abstract: X9311Z Xicor x9311
    Text: JÜEW Advance Information Terminal Voltage OV to +10V X9311 E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME and X9CMME • Low Power CMOS —Active Current, 3 mA Max —Standby Current, 500 |iA Max • 99 Resistive Elements


    OCR Scan     		PDF X9311 X9311 X9311U X9311Z Xicor x9311

    x9cmme

    Abstract: ic x9cmme data X9C103
    Text: SEE D XICOR INC 0 0 0 3 b 7 fl SBÖ * X I C Preliminary Information Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS —Active Current, 3 mA Max —Standby Current, 500 |iA Max


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104 x9cmme ic x9cmme data X9C103

    5050 ir led

    Abstract: resistor array 10k dip X9CMME X9MME
    Text: A dvance Inform ation Terminal Voltage OV to +10V X9311 E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • C om pa tib le w ith X9MME and X9CMME • Low Pow er CMOS — A ctive C urrent, 3 m A Max — S tan dby C urrent, 500 |xA Max • 99 R e sistive Elem ents


    OCR Scan     		PDF X9311 X9311Z X9311W X9311U X9311T X9311 5050 ir led resistor array 10k dip X9CMME X9MME

    Untitled

    Abstract: No abstract text available
    Text: Preliminary Information Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS —Active Current, 3 mA Max —Standby Current, 500 pA Max • 99 Resistive Elements —Temperature Compensated


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104

    Untitled

    Abstract: No abstract text available
    Text: Advance Information Terminal Voltage OV to +15V X9312 im E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME and X9CMME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 nA Max • 99 Resistive Elements


    OCR Scan     		PDF X9312 X9312W X9312U X9312T X9312

    resistor array 10k

    Abstract: c 3866
    Text: im Advance Information 31 Resistor Array X9313 E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME and X9CMME • Low Power CMOS —Active Current, 3 mA Max —Standby Current, 500 nA Max • 31 Resistive Elements —Temperature Compensated


    OCR Scan     		PDF X9313 X9313 X9313W resistor array 10k c 3866

    X9CMME

    Abstract: No abstract text available
    Text: Preliminary Information i m Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 pA Max • 99 Resistive Elements — Temperature Compensated


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104 X9CMME

    X9312

    Abstract: X9CMME
    Text: J& E K Advance Information Terminal Voltage OV to +15V X9312 E2POT Digitally Controlled Potentiometer FEATURES D E S C R IP T IO N • Compatible with X9MME and X9CMME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 iA Max • 99 Resistive Elements


    OCR Scan     		PDF X9312 X9312 X9312U 505SX X9CMME

    Untitled

    Abstract: No abstract text available
    Text: im Advance Information 31 Resistor Array X9313 E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible w ith X9MME and X9CMME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 nA Max • 31 Resistive Elements


    OCR Scan     		PDF X9313 X9313Z X9313W X9313

    x9cmme

    Abstract: ic x9cmme data marking A019 X9C103 control up/down 0-255 X9MME RR-520 X9C102 X9C104 X9C503
    Text: 8 1932 Preliminary Information Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 iiA Max • 99 Resistive Elements


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104 controlled683' x9cmme ic x9cmme data marking A019 X9C103 control up/down 0-255 X9MME RR-520 X9C102 X9C104 X9C503

    "Resistor array"

    Abstract: 8 resistor array 10k C 3866 resistor array 10k dip t 3866 X9313 X9313W X9313Z t 3866 pin voltage X93132
    Text: Kuan A dvance Inform ation 31 Resistor Array X9313 E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME and X9CMME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 joA Max • 31 Resistive Elements


    OCR Scan     		PDF X9313 X9313Z X9313W X9313 "Resistor array" 8 resistor array 10k C 3866 resistor array 10k dip t 3866 X9313W X9313Z t 3866 pin voltage X93132

    x9cmme

    Abstract: X9C1038 X9C103 X9MME RR-520 X9C102 X9C104 X9C503 x9c1039
    Text: Prelim inary Inform ation Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 pA Max • 99 Resistive Elements — Temperature Compensated


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104= X9C104 x9cmme X9C1038 X9C103 X9MME RR-520 X9C102 X9C104 X9C503 x9c1039

    x9cmme

    Abstract: X9C103
    Text: Uar Terminal Voltage ±5V X9CMME E2POT Digitally Controlled Potentiometer FEATURES DESCRIPTION • Compatible with X9MME • Low Power CMOS —Active Current, 3 mA Max —Standby Current, 500 |jA Max • 99 Resistive Elements —Temperature Compensated


    OCR Scan     		PDF X9C503 RR-515 RR-520 X9C102 X9C103 X9C104 x9cmme X9C103

    x9cmme

    Abstract: X9C103
    Text: Preliminary Information Terminal Voltage ±5V X9CM M E im E2POT Digitally Controlled Potentiometer FEATURES D E S C R IP T IO N • Compatible with X9MME • Low Power CMOS — Active Current, 3 mA Max — Standby Current, 500 |iA Max • 99 Resistive Elements


    OCR Scan     		PDF X9C102 X9C103 X9C503 X9C104 x9cmme X9C103